JPH09215002A - Video amplifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a white area from being colored with a simple circuit configuration. SOLUTION: Three amplifier circuits (TR, TG and TB) corresponding to red, green and blue signals are respectively composed of two cascade connected resistors (such as the cascade connected resistors of R4R and R1+R2+R3, for example,) when a signal exceeds a certain threshold value, and the node of these two resistors receives the feedback of respectively different values from a feedback resistor connected to a fixed potential point (DZ) by a diode (Tth). A resistance ratio between two cascade connected resistors is made different for each amplifier circuit and further, a part of resistor (such as R1 or R1+R2) on the down side of cascade connection circuit of these resistors can be made common for these amplifier circuit.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video amplifier for an image display device in which an image is defined by a color signal, and a high value is obtained for each color signal when the signal voltage exceeds a predetermined threshold voltage. The present invention relates to a video amplifier circuit including an amplifier circuit having a gain controlled by feedback and a circuit called a reference value determination circuit that forms a reference value of a threshold value and is common to all color signals. is there.

The present invention also relates to an image display device. A method called "soft clipping", in which the gain is sequentially (weakly) limited (clipping) in a video amplifier, prevents a change in contrast between images especially when the image content suddenly changes (for example, when a subtitle appears or disappears). It is used to Soft clipping attenuates the intensity of white and the modulation in the white area, eliminating saturation of the video amplifier circuit.

[0003]

2. Description of the Related Art A video processor having three amplifier circuits for three colors, in which the gain of the amplifier circuit is limited by high value feedback when the signal voltage exceeds a predetermined threshold value. This video processor is disclosed and known from US Pat. No. 5,299,000. This video processor has a threshold detection circuit which is common to three colors and which simultaneously gives the same feedback to three amplifier circuits. Such a video processor has the problem of coloring the white area under certain circumstances due to the same clipping threshold for the three amplifier circuits.

To eliminate this problem, one for each color
It has been proposed to use three circuits that define one individual threshold. However, this method is not always satisfactory. The reason is that when the color is relatively saturated, that is, when one color signal is strong and the other two color signals are weak, the strong signal is fed back and reduced, and the other two signals are not. This is because the color becomes unsaturated. Moreover, the cut-off voltages of the three cathodes of the display tube are quite different from tube to tube, and these three cathode circuits are each adapted to match the cut-off voltage of the corresponding cathode.
Since it is common to adjust two amplifier circuits, there is an unpredictable difference between the feedback trigger point and the cutoff point for each device.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems.

[0006]

SUMMARY OF THE INVENTION The present invention is a video amplifier for an image display device in which an image is defined by color signals, which is high for each color signal when the signal voltage exceeds a predetermined threshold voltage. A video amplifier circuit comprising an amplifier circuit having a gain controlled by a value-feedback and a circuit called a reference value determination circuit which is common to all color signals and forms a threshold reference value. A circuit for generating a plurality of different voltages based on the reference value of the threshold, which are formed by the reference value determination circuit, to give different feedback to each amplifier circuit. It is characterized by being supplied to.

The present invention is based on the recognition that different feedback circuits are provided with different feedback amounts, and feedback is simultaneously provided to these different amplification circuits. Each amplifier circuit has a bipolar transistor arranged in a grounded-emitter structure, and the emitter of this bipolar transistor is
At least a first resistor connected to the emitter and a second resistor connected to the fixed voltage source are connected to the fixed voltage source by a feedback resistor, and a diode is provided at a connection point between the first and second resistors. Preferably, the threshold reference value is applied via

By doing so, an amplifier circuit for compressing and clipping a signal as desired can be realized very easily. Preferably, the circuit for generating a plurality of different voltages is a voltage divider having cascade-connected resistors, and a reference voltage is applied to the uppermost end of the voltage divider via a diode. , These cascade-connected resistors also constitute the second resistor of the amplifier circuit.

In this way, the two functions are well combined. The reason is that the resistance of the voltage divider has a dual function of forming both the voltage divider and the second resistor of the amplifier circuit. In an amplifier having three amplifying circuits for red, green and blue respectively, an amplifying circuit for a red signal is connected to an uppermost end of the voltage divider, and an amplifying circuit for a green signal is below the uppermost end of the voltage divider. Advantageously, the amplifier circuit for the blue signal is connected to a point further below the lower point. The image display device is advantageously provided with a video amplifier according to the invention as described above.

[0010]

DETAILED DESCRIPTION OF THE INVENTION An image display device receives signals that may exist in various forms, for example signals in which the carrier waves are in different frequency ranges and the types of modulation are different. Nevertheless, each color of the image to be displayed is defined by a particular color signal after proper modulation. Generally, three primary colors are defined: red, green and blue.
These color signals are referred to as "red signal", "green signal" and "blue signal".

Therefore, the video amplifier according to the present invention shown in FIG. 1 receives input signals R-IN, G-IN and B- for receiving color signals for red, green and blue signals, respectively.
IN and an output terminal R− for generating a color signal, respectively.
It has an amplifier circuit having OUT, G-OUT, and B-OUT. Each amplifier circuit has a cascode circuit including a first bipolar transistor TcR, TcG, TcB and a second bipolar transistor TR, TG, TB. The collectors of the first transistors are connected to the output terminals R-OUT, G-OUT and B-OUT, respectively, and are respectively connected to the power source 200V of 200V through load resistors RcR, RcG and RcB, and the bases thereof are, for example. It is connected to a 12 volt voltage source 12V. The resistors RcR, RcG, RcB are made equal to each other because of their power consumption. The bases of the second transistors are connected to the input terminals R-IN, G-IN, and B-IN, respectively, and the collectors thereof are connected to the emitters of the corresponding first transistors. Output terminals R-OUT, G-O
UT and B-OUT are to be connected in a known manner to the cathode of a display tube (not shown), for example. The emitters of the second transistors TR, TG, and TB have the first resistance R, respectively.
It is connected to 4R, R4G, and R4B. This first resistor is also connected to a fixed voltage source, in this case a second resistor connected to ground, which for transistor TR is R3 + R2 + R1 and thus transistor TG.
For the transistor TB and only R1 for the transistor TB. The assembly consisting of the resistor R4R + [R3 + R2 + R1] for the red signal, the resistor R4G + [R2 + R1] for the green signal and the resistor R4B + R1 for the green signal constitutes the feedback resistor.

The reference value determining circuit, which is common to all colors and is used to form the reference value of the threshold value, is the element DZ,
It is composed of R _P and T _th . The reference voltage is defined by a Zener diode DZ whose anode is grounded in this case, and the current is introduced through a resistor R _P from a 12 volt voltage source 12V. This reference voltage is taken out by a bipolar transistor T _th having an emitter follower structure arrangement in which the base is connected to the diode DZ and three resistors R3, R2 and R1 are connected in series between the emitter and the ground. Transistor T _th based on the reference voltage
By dividing the voltage extracted from the emitter of
The circuit of resistors R3, R2, R1 has several different voltages at different connection points, namely the connection point between R4R and R3 + R2 + R1, the connection point between R4G and R2 + R1,
At the connection point between R4B and R1 and thus each amplifier circuit experiences different thresholds that increase sequentially for the blue, green and red signals.

The threshold is applied to each node only when the base-emitter diode of the transistor T _th is conducting. This condition is correct as long as the voltage at one of the connection points mentioned above does not reach the threshold voltage. For example, for a "red" amplifier circuit, the operation is as follows. If the voltage at the node R is lower than the voltage defined by the diode DZ minus the base-emitter voltage of the transistor T _th due to the red signal in the amplifier circuit TR / TcR, the base-emitter diode becomes conductive. ,
The feedback resistor part [R1 + R2 + R3] is shorted by this diode, and only the resistor R4R is included. When the voltage at the connection point R reaches the threshold voltage due to the red signal in the amplifier circuit TR / TcR, the base-emitter diode of the transistor T _th becomes non-conductive, and the feedback resistor portion [R1 + R2 + R3] becomes the resistor R4.
It will be included in series with R. Therefore, the feedback value is high. The operation for the other two amplifier circuits can be similarly described, except that the threshold value is changed by each of the voltage dividers R1, R2 and R3, and therefore the threshold value is different for each amplifier circuit.

According to this construction, one color may affect the other colors. The reason is that, for example, the current of the transistor TR (red) causes the current flowing through the resistor R1 to change the voltage at the connection point B, thus affecting the current of the transistor TB (blue). However, this is not a drawback. The reason is that this effect is limited to slightly increasing saturation and does not completely change color.

A configuration that gives satisfactory results is a transistor of model number BF869 for transistors TcR, TcG, TcB, a transistor of model number BC858 for transistors TR, TG, TB, and resistors R4R, R4.
150Ω resistance for G and R4B, and resistances R1 and R
2 and R3 have resistances of 39Ω, 15Ω, and 4.7Ω. The Zener diode DZ is a 2-volt type. These values can be easily changed to suit the type of display tube used.

It is known that in known display tubes the levels of the color signals supplied to this display tube must be different for the three colors. These levels are adjusted by known means before supplying these color signals to the amplifier. This is important. The reason is that the appropriate value of the threshold for raising the feedback value depends on the level reached by the signal, and these levels differ depending on whether the previous amplification was large or small. Alternatively, these levels may be applied to resistors R4R, R4
The amplification circuit itself can be adjusted by giving different values to G and R4B, that is, by making the feedback factors of the three amplification circuits different from each other. in this case,
It is clear that the voltage division ratios of the voltage dividers R1, R2 and R3 need to be adjusted accordingly, and the appropriate value in this case can be determined by routine tests.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a video amplifier according to the present invention.

[Explanation of symbols]

R-IN, G-IN, B-IN input terminal R-OUT, G-OUT, B-OUT output terminal TcR, TcG, TcB first bipolar transistor TR, TG, TB second bipolar transistor DZ Zener diode _Tth bipolar Transistor

Claims (6)

[Claims] 1. A video amplifier for an image display device in which an image is defined by a color signal, which is controlled by feedback that takes a high value for each color signal when the signal voltage exceeds a predetermined threshold voltage. In the video amplifier circuit, which comprises an amplifier circuit having a gain and a circuit which is common to all color signals and which forms a reference value of a threshold, referred to as a reference value determination circuit, Threshold threshold value
A video amplifier, which is adapted to generate a plurality of different voltages based on the reference value of the threshold value and to supply different voltages to each amplifier circuit. 2. The video amplifier according to claim 1, wherein each amplifier circuit has a bipolar transistor arranged in a grounded-emitter structure, and the emitter of the bipolar transistor is at least a first resistor connected to the emitter. And a second resistor connected to a fixed voltage source, the feedback resistor is connected to the fixed voltage source, and a reference value of a threshold value is applied to a connection point between the first and second resistors via a diode. A video amplifier characterized in that 3. The video amplifier according to claim 2, wherein the circuit for generating a plurality of different voltages is a voltage divider having cascade-connected resistors, and a diode is provided at an uppermost end of the voltage divider. A video amplifier, characterized in that a reference voltage is applied through the resistors, and these resistors connected in cascade form the second resistor of the amplifier circuit. 4. The video amplifier according to claim 3, which has three amplifier circuits for red, green and blue respectively, wherein an amplifier circuit for a red signal is connected to an uppermost end of the voltage divider and an amplifier circuit for a green signal. Is connected to a point below the uppermost end of the voltage divider, and an amplifier circuit for a blue signal is connected to a point further below the lower point. 5. The video amplifier according to claim 1, wherein the circuit for generating a plurality of different voltages is fed by a bipolar transistor arranged in an emitter follower structure, the base of the bipolar transistor serving as a fixed voltage source. Video amplifier characterized by being connected. 6. An image display device, comprising the video amplifier according to claim 1. Description: